Add to ORKGIn this study, using the energy momentum definitions of Einstein and Bergmann-Thomson, we compute the energy-momentum distribution (due to matter and fields including gravitation) of the universe based on generalized Bianchi type II-VIII-IX space-time and its transformations type II, VIII, IX metrics, respectively. The energy and momentum distributions are found to be exactly same for Einstein and Bergmann-Thomson definitions in Bianchi types space-times
In this study, in context of general relativity we consider Einstein, Bergmann-Thomson, Moller and L...
We obtain the energy and momentum of the Bianchi type <math id="M2" xmlns="http://www.w3.org/1998/Ma...
Energy-momentum is an important conserved quantity whose definition has been a focus of many investi...
In this study, using the energy momentum definitions of Landau-Lifshitz, Papapetrou and Moller, we c...
In this study, using the energy momentum definitions of Einstein, Moller, Bergmann-Thomson, Landau-L...
In this paper, using Einstein, Landau and Lifshitz's energy-momentum complexes both in general relat...
To calculate the total energy distribution (due to both matter and fields including grav-itation) as...
We calculate the energy of an anisotropic model of universe based on the Bianchi type I metric in th...
We calculate the energy distribution of an anisotropic model of universe, based on the Bianchi type ...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Using the Einstein and Bergmann-Thomson prescriptions, the energy and momentum distributions for the...
Using the Einstein and Bergmann-Thomson prescriptions, the energy and momentum distributions for the...
Using the Moller, Einstein, Bergmann-Thomson and Landau-Lifshitz energy-momentum definitions both in...
For certain models, the energy of the universe which includes the energy of both the matter and the ...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
In this study, in context of general relativity we consider Einstein, Bergmann-Thomson, Moller and L...
We obtain the energy and momentum of the Bianchi type <math id="M2" xmlns="http://www.w3.org/1998/Ma...
Energy-momentum is an important conserved quantity whose definition has been a focus of many investi...
In this study, using the energy momentum definitions of Landau-Lifshitz, Papapetrou and Moller, we c...
In this study, using the energy momentum definitions of Einstein, Moller, Bergmann-Thomson, Landau-L...
In this paper, using Einstein, Landau and Lifshitz's energy-momentum complexes both in general relat...
To calculate the total energy distribution (due to both matter and fields including grav-itation) as...
We calculate the energy of an anisotropic model of universe based on the Bianchi type I metric in th...
We calculate the energy distribution of an anisotropic model of universe, based on the Bianchi type ...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Using the Einstein and Bergmann-Thomson prescriptions, the energy and momentum distributions for the...
Using the Einstein and Bergmann-Thomson prescriptions, the energy and momentum distributions for the...
Using the Moller, Einstein, Bergmann-Thomson and Landau-Lifshitz energy-momentum definitions both in...
For certain models, the energy of the universe which includes the energy of both the matter and the ...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
In this study, in context of general relativity we consider Einstein, Bergmann-Thomson, Moller and L...
We obtain the energy and momentum of the Bianchi type <math id="M2" xmlns="http://www.w3.org/1998/Ma...
Energy-momentum is an important conserved quantity whose definition has been a focus of many investi...